Johnson Controls Unitary Products
9
632151-YTG-A-1010
CP equals MBH output divided by (total KW input x 3.412).
HSPF (Heating Seasonal Performance Factor) is the total heating output during a normal annual usage period for heating divided by the
total electric power input during the same period.
— = Not Applicable.
HEATING CAPACITY - With Air Handler Coils
UNIT MODEL
AIR HANDLER
MODEL
COIL
1
MODEL
ARI HEATING
2
STAGE
RATED
CFM
NET MBH
HSPF
COP @ 47
47 OD
17 OD
1 PH HP WITH MV - VARIABLE SPEED
YZF06013C
MV20D
FC/MC62D
1
1075
41.5
–
–
3.42
2
1630
58.0
38.0
9.00
3.72
2
1075
57.5
38.5
9.00
3.24
MV20D
FC64D
1
1075
42.0
–
–
3.52
2
1630
58.0
38.0
9.00
3.82
2
1075
58.0
38.5
9.00
3.32
1 PH HP WITH AHP/ SHP / AHX / F*FP
YZF06013C
AHX60
–
1
1255
42.5
–
–
3.56
2
1930
58.0
38.5
9.00
3.80
2
1255
58.0
38.5
9.00
3.40
Rated in accordance with DOE test procedures (Federal Register 12-27-79 and 3-18-88) and ARI Standards 210.
Cooling MBH based on 8
°F entering air temperature, 50% RH, and rated air flow.
EER (Energy Efficiency Ratio) is the total cooling output in BTU’s at 95°F outdoor ambient divided by the total electric power in watt-hours at those conditions.
SEER (Seasonal Energy Efficiency Ratio) is the total cooling output in BTU’s during a normal annual usage period for cooling divided by the total electric power
input in watt-hours during the same period.
1. Rated CFM same as for cooling.
2. Heating MBH based on ARI standards of 70° DB entering indoor air, 72% RH outdoor air with 25 feet of interconnecting piping and no
supplemental electric heat operation.
HEATING CAPACITY - With High Efficiency Motor Furnaces
MODEL
FURNACE
MODEL
COIL
1
MODEL
ARI HEATING
2
RATED
CFM
47
F
17
F
HSPF
MBH
COP
KW
MBH
COP
KW
STD
1 PH HP WITH VARIABLE SPEED FURNACES
3
YZF02413(C)
T*(8,L)X*A12
FC/MC/PC32A
800
23.8
3.92
1.78
14.9
2.60
1.68
8.50
530
23.3
3.67
1.87
14.9
2.60
1.68
8.50
(Y*(8,L)C/T*8V)*A12
FC/MC/PC32A
755
24.0
3.76
1.87
15.1
2.52
1.76
8.50
590
23.8
3.51
1.96
15.1
2.52
1.76
8.50
T*(8,L)X*B12
FC/MC/PC35B
850
24.0
3.98
1.77
14.9
2.62
1.67
8.50
675
23.8
3.73
1.86
14.9
2.62
1.67
8.50
T*(8,L)X*C16
FC/MC/PC35C
865
24.0
3.98
1.77
14.9
2.62
1.67
8.50
625
23.8
3.73
1.86
14.9
2.62
1.67
8.50
T*(8,L)X*C20
FC/MC/PC35C
885
24.0
3.92
1.79
15.0
2.60
1.69
8.50
T*9X*B12
FC/MC/PC35B
785
23.8
3.84
1.82
15.0
2.56
1.72
8.50
620
23.6
3.59
1.91
15.0
2.56
1.72
8.50
T*9X*C16
FC/MC/PC35C
765
23.8
3.80
1.84
15.0
2.54
1.73
8.50
610
23.3
3.55
1.93
15.0
2.54
1.73
8.50
T*9X*C20
FC/MC/PC35C
825
24.0
3.94
1.78
15.0
2.60
1.69
8.50
(Y*(8,L)C/T*8V)*B12
FC/MC/PC35B
785
24.0
3.80
1.85
15.1
2.52
1.76
8.50
515
23.8
3.55
1.94
15.1
2.52
1.76
8.50
(Y*(8,L)C/T*8V)*C16
FC/MC/PC35C
775
23.8
3.80
1.84
15.0
2.54
1.73
8.50
(Y*(8,L)C/T*8V)*C20
FC/MC/PC35C
755
23.8
3.78
1.84
15.0
2.52
1.74
8.50
(Y*9C/T*9V)*B12
FC/MC/PC35B
815
24.0
3.86
1.84
15.1
2.56
1.73
8.50
550
23.8
3.61
1.93
15.1
2.56
1.73
8.50
For Notes See Page 12.
